Add to ORKGMicrowave heating of nonmetallic inorganic material has been of interest for many years. Von Hippel in the late 1940's and early 1950's investigated how microwave radiation up to 10 GHz couples to various insulator materials. Perhaps the most work has been done by Wayne Tinga at the University of Edmonton. Most of the work to date has been done at the two frequency bands allowed in industrial use (0.915 GHz and 2.45 GHz). However some work has recently been carried out at 28 GHz and 60 GHz. Work done in this area at Los Alamos National Laboratory is discussed
As humanity prepares to migrate to the frontiers of the Moon and other planets, the area of mining ...
"The U.S. Bureau of Mines has determined the microwave heating rates for a suite of minerals and rea...
Experimental finding is that mass absorption coefficient is independent of frequency but highly depe...
A paper describes a method of using microwave heating experiments on lunar simulants to determine th...
The mechanical and thermal properties of lunar simulant material were investigated. An alternative m...
The objective is to develop a better understanding of the thermal shock properties of lunar regolith...
This slide presentation reviews the use of microwaves to heat lunar soil in order to obtain water. T...
Lunar simulant material was fabricated to simulate Apollo 11, Apollo 15, and Apollo 16 soils. The ap...
The future of human expansion to our nearest neighbour, the Moon and beyond, relies on the utilisati...
The Space Instrumentation Group at The Open University is investigating microwave sintering of lunar...
Lunar simulants are used to approximate the behavior of the lunar regolith. This work focuses on mat...
The future of human space exploration will inevitably involve longer-term stays and possibly permane...
This viewgraph presentation reviews in this Roadmap for Developing a Lunar Microwave Facility an app...
For a sustainable human presence on the Moon, it is critical to develop technologies that could util...
Sustainable exploration of the Moon could benefit from a microwave heating-based 3D Printing technol...
As humanity prepares to migrate to the frontiers of the Moon and other planets, the area of mining ...
"The U.S. Bureau of Mines has determined the microwave heating rates for a suite of minerals and rea...
Experimental finding is that mass absorption coefficient is independent of frequency but highly depe...
A paper describes a method of using microwave heating experiments on lunar simulants to determine th...
The mechanical and thermal properties of lunar simulant material were investigated. An alternative m...
The objective is to develop a better understanding of the thermal shock properties of lunar regolith...
This slide presentation reviews the use of microwaves to heat lunar soil in order to obtain water. T...
Lunar simulant material was fabricated to simulate Apollo 11, Apollo 15, and Apollo 16 soils. The ap...
The future of human expansion to our nearest neighbour, the Moon and beyond, relies on the utilisati...
The Space Instrumentation Group at The Open University is investigating microwave sintering of lunar...
Lunar simulants are used to approximate the behavior of the lunar regolith. This work focuses on mat...
The future of human space exploration will inevitably involve longer-term stays and possibly permane...
This viewgraph presentation reviews in this Roadmap for Developing a Lunar Microwave Facility an app...
For a sustainable human presence on the Moon, it is critical to develop technologies that could util...
Sustainable exploration of the Moon could benefit from a microwave heating-based 3D Printing technol...
As humanity prepares to migrate to the frontiers of the Moon and other planets, the area of mining ...
"The U.S. Bureau of Mines has determined the microwave heating rates for a suite of minerals and rea...
Experimental finding is that mass absorption coefficient is independent of frequency but highly depe...